EC:3.4.25.1 - FACTA Search

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Query: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Xenotransplantation is being pursued vigorously to solve the shortage of allogeneic donor organs. Experimental studies of the major xenoantigen (Gal) and of complement regulation enable model xenografts to survive hyperacute rejection. When the Gal antigen is removed or reduced and complement activation is controlled, the major barriers to xenograft survival include unregulated coagulation within the graft and cellular reactions involving macrophages, neutrophils, natural killer (NK) cells, and T lymphocytes. Unlike allografts, where specific immune responses are the sole barrier to graft survival, molecular differences between xenograft and recipient that affect normal receptor-ligand interactions (largely active at the cell surface and which may not be immunogenic), are also involved in xenograft failure. Transgenic strategies provide the best options to control antigen expression, complement activation, and coagulation. Although the Gal antigen can be eliminated by gene knockout in mice, that outcome has only become a possibility in pigs due to the recent cloning of pigs after nuclear transfer. Instead, the use of transgenic glycosyl transferase enzymes and glycosidases, which generate alternative terminal carbohydrates on glycolipids and glycoproteins, has reduced antigen in experimental models. As a result, novel strategies are being tested to seek the most effective solution. Transgenic pigs expressing human complement-regulating proteins (DAF/CD55, MCP/CD46, or CD59) have revealed that disordered regulation of the coagulation system requires attention. There will undoubtedly be other molecular incompatibilities that need addressing. Xenotransplantation, however, offers hope as a therapeutic solution and provides much information about homeostatic mechanisms.
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PMID:Genetic engineering for xenotransplantation. 1192 25

The construction, evaluation, and application of cDNA libraries from 3-, 4-, and 5-week-old human embryos are described. Total RNAs were extracted from whole embryos using a modified single-step method. mRNA purified by two passes through oligo (dT) columns was reverse-transcripted into single-stranded cDNA. Alkaline agarose electrophoresis showed that the double-strand cDNA fragments ranged from 0.4 9.0 kb and most of them were in the range of 1.0 2.0 kb. After separation on SizeSep 400 Spun columns to eliminate excess adaptors and small cDNA fragments(less than 400 bp), the cDNAs were ligated into pSPORT1 plasmid and lambdaZipLox phage. The plasmid libraries have complexities of 2.6x10(5), 1.7x10(5) and 2.1x10(5) clones and the phage cDNA libraries have complexities of 3.4x10(6), 3.7x10(6) and 2.3x10(6) clones, respectively. Three whole length cDNAs encoding human CD59, MCP and DAF were amplified by PCR using 3-week-old phage library as templates, and human tPA gene with whole length cDNA was screened from 4-week-old plasmid library by hybridization. It was shown that these libraries are of high quality and are suitable to screen rarely expressed genes. The libraries are a valuable source for the study of novel gene expression during human development.
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PMID:Construction of Early Human Embryo cDNA Libraries and Screening Objective Genes. 1211 Sep 28

Sulfasalazine (SASP) has been reported to depress the fertility in men and experimental male animals, but the fundamental mechanisms of infertility caused by SASP are still unknown. This study was designed to investigate the mechanisms of infertility in rats treated with SASP at a dose of 600 mg/kg for 28 days, including monitoring of sperm motility using computer associated sperm analysis system and acrosome reaction by FITC-concanavalin A lectin staining. The sperm motility and acrosome reaction, which are important for fertilization, were significantly reduced by SASP. Furthermore, to investigate the molecular mechanisms of infertility induced by SASP, mRNA expression analysis in the testes was performed using cDNA microarray as a first screening. It was revealed that CD59, which is located on the acrosomal membrane and is known to be important for the reproductive function of sperm, was affected in the testes; this was also confirmed by real-time PCR analysis, but the spermatogenesis-related genes examined in this study were not affected. Therefore, we focused on CD59 and two other acrosome membrane related-genes: MCP and DAF. CD59, MCP, and DAF in the epididymides of SASP-treated rats were significantly decreased as assessed by real-time RT-PCR analysis and additionally, the expression of CD59 protein was found to be decreased by Western blotting. These results allowed us to hypothesize that the suppression of epididymal acrosomal membrane proteins synthesis with their consequent reduced incorporation to the sperm membrane leads to a depressed sperm motility and acrosome reaction, and thereby leads to infertility in SASP treated male rats.
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PMID:Effects of sulfasalazine on sperm acrosome reaction and gene expression in the male reproductive organs of rats. 1562 86

The activation of the classical complement (C)-system in early-stage Alzheimer disease (AD) and nondemented aging was examined with immunohistochemistry in subjects assessed by the Clinical Dementia Rating (CDR). Activation (staining for C3 and C4 fragments) was found in all brains with amyloid deposits, including all nondemented (CDR 0) cases, with either small numbers of diffuse plaques or with sufficient plaques and tangles to indicate preclinical AD. Staining for C3 and C4 increased in parallel with plaque density in very mild to severe clinical AD. A subset of very mild AD (CDR 0.5) cases also showed C1q (on plaques) and C5b-9 (on neuritic plaques and tangles), whereas these C-fragments were consistently found in severe AD (CDR 3). Mirror section (split-face) analysis showed that C1q, C3, and apoJ (clusterin) occurred on the same plaques. However, C-system regulators CD59, CR1, DAF, and MCP were not detected on plaques or tangles at any stage, indicating that C-activation related to AD is incompletely controlled.
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PMID:Complement activation in very early Alzheimer disease. 1594 22

A fully active complement system deriving from the maternal circulation as well as from local production by various cell source is present in the placenta. The role of this system at the placental level, as in any other tissue in the body, is to protect both the fetus and the mother against infectious and other toxic agents. As fetal tissues are semi-allogeneic and alloantibodies commonly develop in the mother, the placenta is potentially subject to complement-mediated immune attack at the feto-maternal interface with the potential risk of fetal loss. Uncontrolled complement activation is prevented in successful pregnancy by the three regulatory proteins DAF, MCP and CD59 positioned on the surface of trophoblasts. The critical role played by these complement regulators is supported by the embryonic lethality observed in mice deficient in the complement regulator Crry. Excessive complement activation in the placenta places the fetus at risk for growth restriction or death. The role played by the complement system in the fetal damage induced by anti-phospholipid antibodies in a mouse model will be examined.
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PMID:The complement system in the pathophysiology of pregnancy. 1602 27

A number of proteins anchored on the cell surface function to protect host tissues from bystander injury when complement is activated. In humans, they include decay-accelerating factor (DAF, CD55), membrane cofactor protein (MCP, CD46), complement receptor 1 (CR1, CD35) and CD59. Although disease conditions directly attributable to abnormal function of these proteins are relatively rare, it has become evident from recent studies using animal models that membrane complement regulatory proteins are important modulators of tissue injury in many autoimmune and inflammatory disease settings. Evidence is also emerging to support a role of these proteins in regulating cellular immunity. In this article, we highlight recent advances on the in vivo biology of membrane complement regulatory proteins and discuss their relevance in human disease pathogenesis and therapeutics.
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PMID:Membrane complement regulatory proteins. 1633 72

Complement is not only part of the innate immune system, but has also been implicated in adaptive immunity. The role of complement and its regulatory proteins in modulating T cell activity has been the focus of several recent studies. These, which have included work on the membrane co-factor protein (MCP or CD46), decay accelerating factor (DAF or CD55) and CD59, indicate that complement regulators can influence the proliferative capacity of T cells and their ability to produce cytokines, influencing the outcome of a T cell response to a given antigen. Here we review these studies, which reveal another important link between the innate and the adaptive immune system.
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PMID:Holding T cells in check--a new role for complement regulators? 1640

Complement (C) activation is thought to contribute to the initiation and progression of atherosclerosis. Proliferation of smooth muscle cells plays an important role in atherosclerotic plaque formation. Our aim was to investigate the suitability of the rat aortic smooth muscle cell line A7r5 as an in vitro model to study C-induced events in smooth muscle cells. A7r5 cells abundantly expressed membrane bound C-regulators (CReg) Crry and CD59 as assessed by flow-cytometry, but no DAF or MCP was detected. Using RT-PCR in addition to Crry and CD59, also mRNA for rat DAF but not for MCP was detected. Flow-cytometry of cells removed by EDTA instead of trypsin demonstrated that A7r5 did express cell surface DAF. Upon prolonged culturing under either logarithmic growing conditions or under conditions where cells were kept over-confluent, two different sub cell lines were obtained, one which had lost the expression of CD59, while the other showed increased expression of DAF and Crry. The change in expression of these CReg resulted in a change in C-susceptibility. Incubation of the A7r5 cells with human serum induced membrane attack complex dependent proliferation. Transfection with human CD59 efficiently protected the cells from C-mediated killing and C-induced cell proliferation. Our results show that A7r5 cells can be used as an in vitro model for C-induced events, but care has to be taken to use the cells at an early stage of passaging as they readily change their phenotype.
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PMID:Characterisation of the complement susceptibility of the rat aortic smooth muscle cell line A7r5. 1651 69

The expression of human complement regulatory proteins (CRP) and H-transferase (HT) in porcine cells is one of the strategies for suppression of hyperacute rejection (HAR) of xenotransplants in human recipients. In this study, we investigated the inhibitory effect of combined expression of human complement regulators and HT on human serum-mediated cytolysis in porcine embryonic fibroblasts. For the combinated expression of human CRPs in transformed pig cells, cDNAs of human DAF, MCP, and CD59 were cloned into the same insertional plasmid under the control of pCMV IE and LTR. The double combination of CRPs, hDAF-hMCP, and hMCP-hCD59 survived over 50% in the presence of 50% human serum, compared to the control. Moreover, the cell viability was increased more than 65% and 80% in the combination of human DAF-CD59 and DAF-MCP-CD59, respectively. In addition, the combination of HT gene to hDAF-hCD59 vector increased the viability close to 80%, similar to the triple combination of CRPs. These observations suggest that the combined expression of human CRPs and HT in the same insertional vector may be more effective in protecting porcine cells from human complement-mediated cytolysis.
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PMID:Effects of combined expression of human complement regulatory proteins and H-transferase on the inhibition of complement-mediated cytolysis in porcine embryonic fibroblasts. 1679 69

Immunologic mechanism of tumor escaping from complements' attack was unclear in the past. The efficacy of immunotherapy, especially humoral immunotherapy, to tumor is unsatisfactory. At present, with the progression in immunology, various tumors were found to highly express one or several kinds of complement regulatory proteins, such as CD46/MCP, CD55/DAF, and CD59/potectin. Complement system of the organism is inhibited because of high expression of complement regulatory proteins; therefore, the tumor can escape from the attack of complement system. Recently, the mechanism of complement regulatory proteins expressing in tumor has been studied in deep; some immunotherapies aim directly at complement regulatory proteins, including monoclonal antibody of complement regulatory proteins and cytokines, have been applied to animal experiments and clinical trails, and got some success. This review elucidated the progression on complement regulatory proteins in tumor immunotherapy.
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PMID:[Research progression on complement regulatory proteins CD46, CD55, and CD59 in tumor immunotherapy]. 1709 20

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